Multi-chamber container apparatuses and methods of making and using the same

ABSTRACT

The present invention relates to multi-chamber containers. Specifically, the multi-chamber containers comprise, generally, a first container having a swab or applicator contained therein and a second container having a solution therein. In various embodiments, a first container may comprise a fracture recess for breaking and removing the swab or applicator, and a second container may further comprise a fracture recess for opening and exposing the solution. In embodiments, first and second containers are disposed separately, or connectedly side-by-side. In embodiments, a second container is contained within a first container.

TECHNICAL FIELD

The present invention relates to multi-chamber container apparatuses.Specifically, the multi-chamber container apparatuses comprise,generally, a first container having a swab or applicator containedtherein and a second container having a solution therein. In variousembodiments, a first container may comprise a fracture recess forbreaking and removing the swab or applicator, and a second container mayfurther comprise a fracture recess for opening and exposing thesolution. In embodiments, first and second containers are disposedseparately, or connectedly side-by-side. In embodiments, a secondcontainer is contained within a first container.

BACKGROUND

Containers for holding solutions are, of course, generally known.Indeed, jars containing medicines, solutions or other like fluids, forexample, go back hundreds of years to the earliest uses of ceramicmaterials. Upon the introduction of glass, glass vials or ampoules weredeveloped to be usefully suited to hold sterile solutions and/ormedicines. Indeed, the first glass ampoule for storing sterile solutionswas developed by a French pharmacist, Stanislaus Limousin, in 1890. Thisvial had a main body and a long tapered neck that was sealed aftersolutions were placed in the maid body. The neck could then be brokenand the solution extracted.

Glass is still used to this day for vials and ampoules, as the materialis useful for holding solutions. However, because glass has a tendencyto shatter upon breaking, there is a risk of getting glass shards withinthe solution if not broken and opened properly. While new types of glassmaterials have been developed to minimize the shattering thereof, othermaterials have been found to also be useful for use in holding sterilesolutions, namely, thermoplastics. Indeed, thermoplastics are usefulbecause they can be shaped and manipulated relatively easily into vials,ampoules and other like containers. Further, thermoplastics tend not toshatter like glass, preventing the imposition of the solutions withglass shards that may be damaging to a user. However, unlike glass,thermoplastics can be relatively difficult to break, as the polymerchain entanglement of the thermoplastics provides a certain degree oftoughness and resiliency to the walls of containers made therefrom.

Therefore, thermoplastic vials or ampoules have been known to havepoints of weakness built in to the structures themselves, allowing vialsand ampoules to be opened at specific locations when desired.Specifically, U.S. Pat. No. 6,516,947 to Van Dyke et al., for example,discloses a plastic container having a main body portion and a longtapered neck portion, and a fracture recess on the body thereof that isan area of reduced thickness, allowing a user to squeeze or bend thevial at this region, causing the main body portion to break.

It is also generally known to provide containers having swab applicatorstherein. Swab applicators typically include a swab having an applicatorhead connected to a handle. The swab is contained within a closedcontainer package which can be opened to expose the swab for use. Theswab may be coated or soaked in a medical fluid, for example, which canthen be applied to a patient, such as on a wound.

One example of a swab applicator can be found in U.S. Pat. No. 4,952,204to Korteweg, which describes a swab contained within a sleeve which canbe opened by use of manual force. The swab has a substance which can beapplied by the swab. The swab has a straight hollow plastic stick with abud of cotton attached on one end. The sleeve consists of a relativelysmall diameter cylindrical handle portion at one end, a substantiallylarger diameter receptacle portion at the opposite end, and a transitionportion of compound configured therebetween. A tip of the handle portionof the sleeve engages a tip of the swab stick. The intersection betweenthe receptacle and transition portions forms a sharp angle on aninterior of the sleeve. The sleeve is opened by squeezing the sleeve atthe intersection between the receptacle and transition portions andbreaking the sleeve at the interior sharp angle.

Examples of other containers include applicators or dispensers havingsharp interior angles to open the containers, and include U.S. Pat. Nos.4,927,012, 5,220,061, and 5,326,603. The aforementioned Van Dyke et al.patent, U.S. Pat. No. 6,516,947 discloses a swab applicator extendingwithin a sleeve portion of the container, whereupon breakage of the mainbody at a fracture recess, the swab applicator, preferably having asolution thereon, may be extracted from the container. Thus, the sleevemaintains its position around the swab applicator handle, therebyminimizing contamination.

However, before now, it has been difficult to provide an applicatorapparatus where two or more solutions may be maintained separately toensure that they do not mix until necessary. For example, oftentimes twoor more solutions may be reactive with each other, and it may bepreferred to utilize the solutions immediately upon mixing to maximizetheir use. In another example, a mixture of two solutions may have alimited shelf-life, and thus component solutions may be desired to bekept separate to maximize their longevity. Moreover, merely the presenceof the swab applicator in a single solution may be enough to causedegradation of the solution and/or the swab applicator. A need,therefore, exists for multi-chamber container apparatuses and methods ofmaking and using the same. Specifically, a need exists for multi-chambercontainer apparatuses and methods of making and using the same thatmaintains separation of two or more solutions until desired. Inaddition, a need exists for multi-chamber container apparatuses andmethods of making and using the same that maintains separation of a swabapplicator and one or more solutions to prevent degradation of the oneor more solutions and/or the swab applicator apparatus.

Systems for maintaining separation of solutions, however, are generallyknown. Indeed, it is known to provide ampoules having internal tubes orchambers that may be broken internally for solutions to mix prior toapplication thereof. However, many of these solutions utilize internalchambers made of glass, and generally do not solve the problems withpotential glass shards and/or fine glass particulates ending up in themixed solution. Further solutions utilizing internal thermoplasticchambers have not solved the problems associated with maintainingapplicators in sterile environments until use before, during and/orafter application of the solution thereon. A need, therefore, exists formulti-chamber container apparatuses having internal chambers that mayeasily be broken to allow application of solution to a swab applicator.Moreover, a need exists for multi-chamber container apparatuses havinginternal chambers that may be broken to allow mixing of separatesolutions prior to or during application to a swab applicator.

While it may be known to mix solutions within containers, it is oftendifficult to determine when mixing is sufficient prior to use. Forexample, if solutions are not properly mixed prior to application,especially for medical use, the resultant solution may be ineffectivefor its intended purpose. A need, therefore, exists for multi-chambercontainer apparatuses and methods of making and using the same thatallow a user to know when solutions are sufficiently mixed. Morespecifically, a need exists for multi-chamber container apparatuses andmethods of making and using the same that provide a visual indicator ofsufficient mixing.

SUMMARY OF THE INVENTION

The present invention relates to multi-chamber containers. Specifically,the multi-chamber containers comprise, generally, a first containerhaving a swab or applicator contained therein and a second containerhaving a solution therein. In various embodiments, a first container maycomprise a fracture recess for breaking and removing the swab orapplicator, and a second container may further comprise a fracturerecess for opening and exposing the solution. In embodiments, first andsecond containers are disposed separately, or connectedly side-by-side.In embodiments, a second container is contained within a firstcontainer.

To this end, in an embodiment of the present invention, a multi-chambercontainer apparatus is provided. The multi-chamber container comprises:a first chamber having a main body portion and an extended portion, thefirst chamber having a wall and an area of weakness within the wall forseparating the main body portion and the extended portion from each whenthe first chamber is broken at the area of weakness, and an applicatordisposed within the first chamber having a handle and an applicator end,the handle of the applicator extending from the extended portion suchthat the applicator end is disposed within the main body portion; asecond chamber having a main body portion and an extended portion, thesecond chamber having a wall and an area of weakness within the wall forseparating the main body portion and the extended portion of the secondchamber from each other when the second chamber is broken at the area ofweakness, and a first material within the second chamber for applicationto the applicator end when the applicator end is inserted into thesecond chamber, wherein the first and second chamber are connected toeach other in a side-by-side configuration.

In an embodiment, the applicator end is a swab.

In an embodiment, the first material is selected from the groupconsisting of a liquid, a powder and a gel.

In an embodiment, the multi-chamber container apparatus furthercomprises: a fin disposed between the first and second chambers forseparating the first and second chambers from each other.

In an embodiment, the wall of the first chamber and the wall of thesecond chamber are interconnected together.

In an embodiment, the multi-chamber container further comprises atransitional neck between the main body portion and the extended portionof the first chamber.

In an embodiment, the area of weakness is disposed on the transitionalneck.

In an embodiment, the multi-chamber container apparatus furthercomprises a second material contained within the second chamber, whereinthe second material is selected from the group consisting of a liquid, apowder and a gel.

In an embodiment, the multi-chamber container apparatus furthercomprises a capsule within the first or second chambers, wherein thecapsule comprises an area of weakness for opening the capsule, thecapsule further comprising a second material wherein the second materialis selected from the group consisting of a liquid, a powder and a gel.

In an embodiment, the capsule is in the second chamber, such thatbreaking the capsule at the area of weakness causes the first and secondmaterials to mix.

In an alternate embodiment of the present invention, a method of using amulti-chamber container apparatus is provided. The method comprises thesteps of: providing a multi-chamber container apparatus comprising afirst chamber having a main body portion and an extended portion, thefirst chamber having a wall and an area of weakness within the wall forseparating the main body portion and the extended portion from each whenthe first chamber is broken at the area of weakness, and an applicatordisposed within the first chamber having a handle and an applicator end,the handle of the applicator extending from the extended portion suchthat the applicator end is disposed within the main body portion; asecond chamber having a main body portion and an extended portion, thesecond chamber having a wall and an area of weakness within the wall forseparating the main body portion and the extended portion of the secondchamber from each other when the second chamber is broken at the area ofweakness, and a first material within the second chamber for applicationto the applicator end when the applicator end is inserted into thesecond chamber, wherein the first and second chamber are connected toeach other in a side-by-side configuration; breaking the first chamberat the area of weakness on the first chamber; breaking the secondchamber at the area of weakness on the second chamber; withdrawing theapplicator from the first chamber; and inserting the applicator into thesecond chamber and applying the first material to the applicator.

In an embodiment, the applicator end is a swab, and the first materialis absorbed by the swab when inserted into the second chamber.

In an embodiment, the second chamber comprises a second material and themethod further comprises the step of mixing the first and secondmaterials together when the applicator is inserted into the secondchamber.

In an embodiment, the first or second chambers comprise a capsule withinthe first or second chambers, wherein the capsule comprises an area ofweakness for opening the capsule, the capsule further comprising asecond material, and further the method comprises the step of breakingthe capsule at the area of weakness and releasing the second materialinto the first or second chamber.

In an embodiment, the capsule is in the second chamber, such thatbreaking the capsule at the area of weakness causes the first and secondmaterials to mix to form a mixture, and the method further comprises thestep of applying the mixture to the applicator when the applicator isinserted into the second chamber.

In an alternate embodiment of the present invention, a multi-chambercontainer apparatus is provided. The multi-chamber container comprises afirst chamber having a main body portion and an extended portion, thefirst chamber having a wall and an area of weakness within the wall forseparating the main body portion and the extended portion from each whenthe first chamber is broken at the area of weakness, and an applicatordisposed within the first chamber having a handle and an applicator end,the handle of the applicator extending from the extended portion suchthat the applicator end is disposed within the main body portion; and asecond chamber within the first chamber, the second chamber comprising awall, an interior space and an area of weakness, the second chamberfurther comprising a first material.

In an embodiment, breaking the area of weakness on the second chambercauses the first material to be released into the first chamber and ontothe applicator.

In an embodiment, the multi-chamber container apparatus furthercomprises a second material within the first chamber, wherein when thefirst material is released into the main body portion, the firstmaterial and the second material mix to form a mixture.

In an embodiment, the mixture comprises a color indicating that thefirst and second materials have properly mixed.

In an embodiment, the applicator is disposed within both the firstchamber and the second chamber at the same time until removed bybreaking of the areas of weakness on both the first and second chambers.

It is, therefore, an advantage and objective of the present invention toprovide multi-chamber container apparatuses and methods of making andusing the same.

Specifically, it is an advantage and objective of the present inventionto provide multi-chamber container apparatuses and methods of making andusing the same that maintains separation of two or more solutions untildesired.

In addition, it is an advantage and objective of the present inventionto provide multi-chamber container apparatuses and methods of making andusing the same that maintains separation of a swab applicator and one ormore solutions to prevent degradation of the one or more solutionsand/or the swab applicator apparatus.

Moreover, it is an advantage and objective of the present invention toprovide multi-chamber container apparatuses having internal chambersthat may be broken to allow application of solution to a swabapplicator.

Further, it is an advantage and objective of the present invention toprovide multi-chamber container apparatuses having internal chambersthat may be broken to allow mixing of separate solutions prior to orduring application to a swab applicator.

In addition, it is an advantage and objective of the present inventionto provide multi-chamber container apparatuses and methods of making andusing the same that allow a user to know when solutions are sufficientlymixed.

More specifically, it is an advantage and objective of the presentinvention to provide multi-chamber container apparatuses and methods ofmaking and using the same that provide a visual indicator of sufficientmixing.

Additional features and advantages of the present invention aredescribed in, and will be apparent from, the detailed description of thepresently preferred embodiments and from the drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

The drawing figures depict one or more implementations in accord withthe present concepts, by way of example only, not by way of limitations.In the figures, like reference numerals refer to the same or similarelements.

FIG. 1 illustrates a perspective view of a prior art container having aswab contained therein.

FIG. 2 illustrates a cross-sectional view of a prior art containerhaving a swab contained therein.

FIG. 3 illustrates a perspective view of a multi-chamber containerapparatus in an embodiment of the present invention.

FIG. 4 illustrates a cross-sectional view of a multi-chamber containerapparatus in an embodiment of the present invention.

FIG. 5 illustrates a cross-sectional view of a multi-chamber containerapparatus having caps and a swab removed in an embodiment of the presentinvention.

FIG. 6 illustrates a cross-sectional view of a multi-chamber containerapparatus having a swab from a first chamber inserted into a secondchamber in an embodiment of the present invention.

FIG. 7 illustrates a cross-sectional view of a multi-chamber containerapparatus having a swab removed from a second chamber in an embodimentof the present invention.

FIG. 8 illustrates a cross-sectional view of a multi-chamber containerapparatus having a swab and a first solution in a first chamber and asecond solution in a second chamber.

FIGS. 9A-9B illustrates cross-sectional views of a multi-chambercontainer apparatus having a first solution in a second chamber and asecond solution in a breakable ampoule within the second chamber in anembodiment of the present invention.

FIG. 10 illustrates a perspective view of a multi-chamber containerapparatus in an alternate embodiment of the present invention.

FIGS. 11A-11C illustrate cross-sectional views of a multi-chambercontainer apparatus having a first solution in a breakable ampoulewithin the container apparatus in an embodiment of the presentinvention.

FIGS. 12A-12C illustrate cross-sectional views of a multi-chambercontainer apparatus having a first solution in a first chamber and asecond solution within a breakable ampoule within the first chamber inan embodiment of the present invention.

FIGS. 13A-13B illustrate cross-sectional views of a multi-chambercontainer apparatus having a first chamber and disposed within the firstchamber is a second chamber having a swab contained therein in anembodiment of the present invention.

DETAILED DESCRIPTION OF THE PRESENTLY PREFERRED EMBODIMENTS

The present invention relates to multi-chamber containers. Specifically,the multi-chamber containers comprise, generally, a first containerhaving a swab or applicator contained therein and a second containerhaving a material, such as a liquid, powder or gel therein. In variousembodiments, a first container may comprise a fracture recess forbreaking and removing the swab or applicator, and a second container mayfurther comprise a fracture recess for opening and exposing thesolution. In embodiments, first and second containers are disposedseparately, or connectedly side-by-side. In embodiments, a secondcontainer is contained within a first container.

FIGS. 1 and 2 illustrate a prior art container apparatus, wherein a swabis disposed within the container apparatus. As described in prior art,the container apparatus may be broken on a line or an area of weaknessin one or a plurality of locations to remove the swab from within thecontainer apparatus. A material, such as a liquid, powder or gel may becontained within the prior art container apparatus for contacting theswab such that the material may be removed from the container andutilized on the swab. As stated herein, the term “material” may besynonymous with solution, liquid, powder or gel when used throughout thepresent specification.

Now referring to the figures, wherein like numerals refer to like parts,FIG. 3 illustrates a multi-chamber container apparatus 10 in anembodiment of the present invention. Specifically, the multi-chambercontainer apparatus 10 comprises a first chamber 12 and a second chamber14 disposed in side-by-side relation to each other. The first chamber 12comprises a main body portion 20, a stem portion 22 and a transitionalneck portion 24. Likewise, the second chamber 14 comprises a main bodyportion 30, a stem portion 32 and a transitional neck portion 34. Aconnecting fin 18 may bridge the first chamber 12 and the second chamber14 so as to maintain the multi-chamber apparatus 10 as a singular unit.

Disposed on an end of each of the first and second chambers 12, 14 maybe closed off areas 26, 36, respectively, that may be sealed aftermaterials, such as solutions and/or swabs, are added to the first andsecond chambers, 12, 14. For example, main body portions 20, 30 may eachhave an open end (not shown) prior to filling thereof. Once filled withmaterial, the open end may be pinched shut and heat-sealed formingclosed off areas 26, 36.

It should be noted that the first and second chambers 12, 14 may beconnected to each other in any manner. For example, the connecting fin18 may allow the first and second chambers 12, 14 a distance apart fromeach other so that each chamber can maintain its own physical integrity,as placing immediately side-by-side may cause points of weakness in thesidewalls of one or the other of the first and second chambers 12, 14.Alternatively, the first and second chambers 12, 14 may be disposedimmediately adjacent each other without connecting fin 18 withoutconsequent weakening of side walls, and the present invention should notbe limited as described herein. Moreover, although the presentembodiments disclose multi-chamber container apparatuses having,generally, two chambers, it should be noted that the multi-chamberapparatus 10 may comprise more than two chambers, as necessary for anyparticular application.

FIG. 4 illustrates a cross-sectional view of multi-chamber containerapparatus 10 in an embodiment of the present invention. Themulti-chamber container apparatus 10 may preferably be made from athermoplastic material, such as, for example, polyethylene orpolypropylene, although the multi-chamber container apparatus 10 may bemade from any other material sufficient to perform as described herein,and the present invention should not be limited as described herein.Moreover, the first and second chambers 12, 14 may be made of a materialthat is any color, and may be opaque, transparent, or translucent. In apreferred embodiment, the first and second chambers 12, 14 may betransparent or translucent so that a user may view the contents therein.Alternatively, the first and second chambers 12, 14 may be made from acombination of materials, some of which may be opaque, and some of whichmay be transparent or translucent so as to provide a window for a userto see therein.

As shown in FIG. 4, first chamber 12 may contain a swab or applicator 40having an applicator end 42 and a handle 44 extending therefrom. Theapplicator end 42 may be any material that may be used to apply asolution as needed. For example, the applicator end 42 may be a cottonswab that may absorb a medicament that may be applied to a wound. Ofcourse, the applicator end 42 may be any shape and/or made from anymaterial, and the present invention should not be limited as disclosedherein.

The handle 44 may extend from the applicator end 42 and may be disposedwithin the stem 22 of the first chamber 12. Thus, a user may grasp thestem 22 and utilize the applicator end 42 without touching the handle44, thereby minimizing or eliminating contamination of the applicatorend 42. Alternatively, the stem 22 and the handle 44 may be a unitarypiece instead of separate pieces as described herein.

The second chamber 14 may preferably have a solution 50 disposedtherein. The solution 50 may be any solution needed by a user thereoffor a specific purpose. Preferably, the solution may be a medicament orsalve that may be utilized for a medical purpose, for cleaning a wound,applying medicine, or for any other purpose. Alternatively, the secondchamber 14 may have a dry material therein, such as a dry powder, thatmay adhere to and be extracted by the swab or applicator 40, asdescribed herein.

As illustrated in FIGS. 5, 6 and 7, a method of using the multi-chambercontainer apparatus is shown. Specifically, FIG. 5 illustrates that thestems 22, 32 may be removed from the first and second chambers 12, 14,respectively. This may be done by grasping the stems 22, 32 and breakingthe stems 22, 32 from the main body portions 20, 30, respectively.Specifically, the first and second chambers 12, 14 may each have a lineor area of weakness 27, 37, respectively, strategically placed on eachof the first and second chambers 12, 14, such that the walls of eachchamber may be broken when grasped and pulled, squeezed, or otherwisemanually manipulated. As illustrated in FIG. 5, the lines or areas ofweakness may be on or near the transitional neck portions 24, 34 of thefirst and second chambers 12, 14, respectively. However, it should benoted that the lines or areas of weakness may be located anywhere on thefirst and second chambers 12, 14, such as on the stems 22, 32, on theneck portions 24, 34, and/or on the main body portions 20, 30.

The lines or areas of weakness, also known as “fracture recesses” may beportions of the first and second chambers 12, 14 where the thickness ofthe walls thereof may be weakened via a score line, or may be thinnerthan in the rest of the first and second chambers 12, 14. The lines orareas of weakness may be molded thereinto or scored after molding thesame, or placed or disposed in the walls of the first and secondchambers 12, 14 in any manner. Specifically, the lines or areas ofweakness may extend from an exterior surface of the walls of the firstand second chambers 12, 14 into the walls thereof. Thus, the walls mayhave reduced wall thickness at the fracture recesses. The fracturerecesses may have various shapes, such as V-shape, U-shape, or any othershape, and should not be limited as described herein.

As illustrated in FIG. 5, the stem 22 containing the handle 44 of theswab or applicator 40 may be broken away from the main body portion 20of the first chamber 12 at a first fracture recess forming a first breakpoint 28, thereby removing the swab or applicator 40 from the firstchamber 12. Likewise, the stem 32 of the second chamber 14 may begrasped, broken and removed from the main body portion 30 of the secondchamber 14 at a second fracture recess forming a second break point 38,thereby exposing the solution 50 contained therein.

As illustrated in FIG. 6, the applicator 40 may then be inserted intothe main body portion 30 of the second chamber, thereby causing thesolution 50 to contact the applicator end 42 of the applicator 40,allowing the solution 50 to be absorbed in, adhered on, or otherwiseassociated with the applicator end 42. A user may then bring theapplicator end 42 and, thus, the solution 50 out of the second chamber,as shown in FIG. 7, and the user may thus utilize the solution 50 asneeded. Preferably, the applicator end 42 is made from an absorbentmaterial, and the solution 50 may be absorbed by the applicator end 42and readily dispensed as necessary.

In another embodiment of the present invention, the first chamber 12 maycontain a stirring stick as the applicator 40 extending from the stem22, and the applicator end 42 may be a paddle or other surface that maybe utilized for stirring a drink. The solution 50 may be an edibleadditive that may be added to the drink. The edible additive may bepoured from the second chamber 14 and the stirring stick may be utilizedto stir the drink. For example, the solution 50 may be a creamer, andmay be added to hot coffee, and the stirring stick may be utilized tostir the creamer in the coffee when added thereto.

FIGS. 8 and 9A-9B illustrate alternate embodiments of the presentinvention. Specifically, FIG. 8 illustrates an alternate embodiment ofthe present invention of a multi-chamber container apparatus 100comprising a first chamber 112, a second chamber 114, a swab orapplicator 140, and a first solution or powder 150 contained within thesecond chamber 112, in much the same manner as described above withrespect to FIGS. 1-7. However, a second solution or powder 152 may becontained in the first chamber 112. Thus, the applicator 140 may beutilized to transfer an amount of the second solution or powder 152 fromthe first chamber 112 to the second chamber 114 for mixing with thefirst solution or powder 150, and the applicator 140 may then be used toapply the mixed solution or powder as necessary. Thus, this embodimentmay allow the mixing of two solutions at the time needed for use.Specifically, many medicaments may require mixing prior to use, butmixing too early prior to use may decrease or eliminate theeffectiveness of the mixed solution or limit the shelf-life or usableamount of time thereof. Thus, when the applicator 140 removes the secondsolution or powder 152 from the first chamber 112 and is inserted intothe second chamber 114, the first and second solutions or powders 150,152 may mix, and be ready for use.

FIGS. 9A-9B illustrate yet another embodiment of the present inventionof a multi-chamber container apparatus 200 having a first chamber 212and a second chamber 214, an applicator 240 and a first solution orpowder 250 contained within the second chamber 214. A breakable capsule260 may be contained within the second chamber 214, and may contain asecond solution or powder 252 therein. The breakable capsule may be madefrom any material that may be broken, such as, preferably, glass or,most preferably, thermoplastic. A line or area of weakness 262 may bedisposed within the walls of the capsule 260 so that the same may bebroken, allowing the first and second solutions or powders 250, 252 tobe mixed together. For example, the capsule may be squeezed by a userthrough the walls of the second chamber 214 and popped open, therebyexposing the second solution 252 to the first solution 250. Shaking themulti-chamber container apparatus 200 may allow the two solutions and/orpowders to mix, as shown in FIG. 9B. Thus, applicator 240 may be removedfrom the first chamber and inserted into the second chamber after mixingof the two solutions and/or powders.

Other embodiments may include a third solution or powder contained inthe first chamber, and/or a second capsule within the third solution orpowder having a fourth solution, which may be utilized as describedhereinabove. In addition, three or more chambers may be utilized withvarious solutions and/or powders, and/or capsules contained therein formixing any number of solutions and/or powders together, and the presentinvention should not be limited as described herein.

Further, each of the first and second chambers may contain a swab orapplicator, and each chamber may further comprise a solution or powder.Thus, each solution or powder may be withdrawn separately from eachrespective chamber. For example, the first chamber may comprise anantiseptic that may be withdrawn from the chamber via a first swabcontained therein and used on a wound for cleaning the wound. Next, thesecond chamber may comprise an antibiotic that may be removed from thesecond chamber via a second swab contained therein and used on wound forreducing the risk of infection and/or to aid in healing. Still further,one or both of the first and second chambers may comprise solutions orpowders, and may further comprise capsules or ampoules containing yetadditional solutions or powders for mixing with solutions or powderscontained within each respective chamber.

Referring now to FIG. 10, an alternate embodiment of the presentinvention is provided. FIG. 10 illustrates a multi-chamber containerapparatus 300 having a first chamber 312 having a main body portion 320,a stem 322 and a transitional neck portion 324. A line or area ofweakness 327, as illustrated in FIGS. 11A, 11B, may be disposed withinthe first chamber 312 for removing the stem 322 from the main bodyportion 320.

FIGS. 11A-11C illustrate cross-sectional views of the multi-chambercontainer apparatus 300. As shown in FIG. 11A, an applicator 340 mayextend from the stem 322 having an applicator end 342 and a handle 344.An ampoule or capsule 360 forming a second chamber may be containedwithin the main body portion 320. The ampoule or capsule 360 may containa first solution or powder 350 that may be released into the main bodyportion 320 and in contact with the applicator end 342 when the ampouleor capsule 360 is broken along a line or area of weakness 362, asillustrated in FIG. 11B. The applicator 340 may then be removed bebreaking the stem 322 from the first chamber 312 via line or area ofweakness 327, and the first solution or powder 350 may be utilized asneeded, as illustrated in FIG. 11C. The embodiment shown in FIGS.11A-11C may be particularly useful where the solution or powder 350 maydegrade or lose effectiveness when contacting the swab or applicator340, so the present embodiment may minimize the amount of time incontact prior to use of the solution or powder 350.

FIGS. 12A-12C illustrate cross-sectional views of a multi-chamberapparatus 400 having a first chamber 412 having a main body portion 420,a stem 422 and a transitional neck portion 424. A line or area ofweakness 427 may be disposed within the first chamber 412 for removingthe stem 422 from the main body portion 420.

The multi-chamber apparatus 400 may further have an applicator 440extending from a stem having an applicator end 442 and a handle 444. Anampoule or capsule 360 forming a second chamber may be contained withinthe main body portion 420. The ampoule or capsule 460 may contain afirst solution or powder 450 that may be released into the main bodyportion 420 when the capsule 460 is broken along line or area ofweakness 462. A second solution or powder 452 may be contained withinthe main body portion 420, such that when the first solution or powder450 is released from the ampoule or capsule 460, the first solution orpowder 450 may mix with the second solution or powder 452, asillustrated in FIG. 12B. The applicator 440 may thus be removed from thefirst chamber 412 having a mixture of the first and second solutionsand/or powders 450, 452 thereon for use as needed, as illustrated inFIG. 12C.

In an alternate embodiment of the present invention, illustrated inFIGS. 13A-13B, cross-sectional views of a multi-chamber containerapparatus 500 is illustrated. The multi-chamber container apparatus 500may comprise a first chamber 512 comprising a main body portion 520 astem 522, a transitional neck portion 524 and a line or area of weakness527. A second chamber 514 may be contained within the first chamber 512,and may comprise a main body portion 530, a stem 532, a transitionalneck portion 534 and a line or area of weakness 537. A first solution550 may be contained within the second chamber 514. Also within thesecond chamber may be an applicator 540 having an applicator end 542 anda handle 544 that may extend into the stem 532 of the second chamber 514and the stem 522 of the first chamber 512.

As noted, lines or areas of weakness 427, 437 may be on both the firstchamber 512 and the second chamber 514, respectively, for allowing thestems 522, 532 to be removed from the main body portions 520, 530 of thefirst and second chambers 512, 514, respectively. Thus, the applicator540 may be removed from both the main body portions 520, 530 of thefirst and second chambers 512, 514, respectively, and the solution 550may be utilized as needed.

This embodiment, shown in FIGS. 13A-13B, may be useful where a solutionmay be required to be subject to restrictions that the solution beseparated in a double-walled container, or some other restriction tominimize or prevent the possibility of leakage, such as for dangerousmaterials, or to provide extra protection from outside materials thatmay degrade or destroy the solution contained therein.

In another embodiment of the present invention, the solutions or powdersdescribed herein may be colored to provide a visual indication ofwhether proper mixing has occurred when one or more of the solutions,powders or gels is mixed with one or more of the other solutions,powders or gels. Indeed, it is often the case that mixing one solution,powder or gel must occur prior to use thereof so that the material mayhave its desired effectiveness. In a first example, a multi-chambercontainer apparatus may comprise a first liquid, powder or gel of afirst color and a second liquid, powder or gel of a second color. Uponmixing of the liquid, powder or gel, the first color may combine withthe second color thereby forming a third color. A user thereof will knowwhen proper mixing occurs when the third color is apparent.Alternatively, the first and second liquids, powders or gels maycomprise first and/or second colors, or no differentiating color. Uponmixing of the first and second liquids, powders or gels, a chemicalreaction may occur causing a distinctive coloring of the mixturethereof, visually indicating to a user that proper mixing has occurred.

It should be noted that various changes and modifications to thepresently preferred embodiments described herein will be apparent tothose skilled in the art. Such changes and modifications may be madewithout departing from the spirit and scope of the present invention andwithout diminishing its attendant advantages. Further, referencesthroughout the specification to “the invention” are nonlimiting, and itshould be noted that claim limitations presented herein are not meant todescribe the invention as a whole. Moreover, the inventionillustratively disclosed herein suitably may be practiced in the absenceof any element which is not specifically disclosed herein.

We claim:
 1. A multi-chamber container apparatus comprising: a firstchamber having a main body portion and an extended portion, the firstchamber having a wall and an area of weakness within the wall forseparating the main body portion and the extended portion from eachother when the first chamber is broken at the area of weakness, and anapplicator disposed within the first chamber having a handle and anapplicator end, the handle of the applicator extending from the extendedportion such that the applicator end is disposed within the main bodyportion; a second chamber having a main body portion and an extendedportion, the second chamber having a wall and an area of weakness withinthe wall for separating the main body portion and the extended portionof the second chamber from each other when the second chamber is brokenat the area of weakness, and a first material within the second chamberfor application to the applicator end when the applicator end isinserted into the second chamber, wherein the first and second chambersare connected to each other in a side-by-side configuration.
 2. Themulti-chamber container apparatus of claim 1 wherein the applicator endis a swab.
 3. The multi-chamber container apparatus of claim 1 whereinthe first material is selected from the group consisting of a liquid, apowder and a gel.
 4. The multi-chamber container apparatus of claim 1further comprising: a fin disposed between the first and second chambersfor separating the first and second chambers from each other.
 5. Themulti-chamber container apparatus of claim 1 wherein the wall of thefirst chamber and the wall of the second chamber are interconnectedtogether.
 6. The multi-chamber container apparatus of claim 1 furthercomprising: a transitional neck between the main body portion and theextended portion of the first chamber.
 7. The multi-chamber containerapparatus of claim 6 wherein the area of weakness is disposed on thetransitional neck.
 8. The multi-chamber container apparatus of claim 1further comprising: a second material contained within the secondchamber, wherein the second material is selected from the groupconsisting of a liquid, a powder and a gel.
 9. The multi-chambercontainer apparatus of claim 1 further comprising: a capsule within thefirst or second chambers, wherein the capsule comprises an area ofweakness for opening the capsule, the capsule further comprising asecond material wherein the second material is selected from the groupconsisting of a liquid, a powder and a gel.
 10. The multi-chambercontainer apparatus of claim 9 wherein the capsule is in the secondchamber, such that breaking the capsule at the area of weakness causesthe first and second materials to mix.
 11. A method of using amulti-chamber container apparatus comprising the steps of: providing amulti-chamber container apparatus comprising a first chamber having amain body portion and an extended portion, the first chamber having awall and an area of weakness within the wall for separating the mainbody portion and the extended portion from each other when the firstchamber is broken at the area of weakness, and an applicator disposedwithin the first chamber having a handle and an applicator end, thehandle of the applicator extending from the extended portion such thatthe applicator end is disposed within the main body portion; a secondchamber having a main body portion and an extended portion, the secondchamber having a wall and an area of weakness within the wall forseparating the main body portion and the extended portion of the secondchamber from each other when the second chamber is broken at the area ofweakness, and a first material within the second chamber for applicationto the applicator end when the applicator end is inserted into thesecond chamber, wherein the first and second chambers are connected toeach other in a side-by-side configuration; breaking the first chamberat the area of weakness on the first chamber; breaking the secondchamber at the area of weakness on the second chamber; withdrawing theapplicator from the first chamber; and inserting the applicator into thesecond chamber and applying the first material to the applicator. 12.The method of claim 11 wherein the applicator end is a swab, and thefirst material is absorbed by the swab when inserted into the secondchamber.
 13. The method of claim 11 wherein the second chamber comprisesa second material and further comprising the step of: mixing the firstand second materials together when the applicator is inserted into thesecond chamber.
 14. The multi-chamber container of claim 11 wherein thefirst or second chambers comprise a capsule within the first or secondchambers, wherein the capsule comprises an area of weakness for openingthe capsule, the capsule further comprising a second material, andfurther comprising the step of: breaking the capsule at the area ofweakness and releasing the second material into the first or secondchamber.
 15. The multi-chamber container apparatus of claim 14 whereinthe capsule is in the second chamber, such that breaking the capsule atthe area of weakness causes the first and second materials to mix toform a mixture, and further comprising the step of: applying the mixtureto the applicator when the applicator is inserted into the secondchamber.